Product Description
10 ton single acting multistage hydraulic cylinder
Product Description
Features:Max Working Pressure: 700 Bar;
Telescopic Single-acting Cylinders designed for use where there is a minimal clearance for insertion of cylinders and a very high lift is necessary;
It can be freely used throughout 360°.
Product Show
Product Parameters
Model | Cap. | Stage | Total | Cap. | Effect. | Oil | A | B | D | E | E1 | F | F1 | H | K | L | Weight |
(ton) | Stroke | (KN) | Area | Cap | (mm) | (mm) | (mm) | (mm) | (mm) | (mm) | (mm) | (mm) | (mm) | (mm) | (kg) | ||
* | (mm) | (cm²) | (cm³) | ||||||||||||||
KSRCD-1571 | 10 | 2 | 270 | 109.1 | 15.9 | 810 | 250 | 520 | 110 | 45 | 75 | 36 | 68 | 20 | 26 | 50 | 17 |
1 | 135 | 303.2 | 44.15 | ||||||||||||||
KSRCD-1043 | 10 | 3 | 435 | 109.1 | 15.9 | 2250 | 280 | 715 | 152 | 45 | 110 | 36 | 95 | 21 | 19 | 75 | 39 |
2 | 290 | 303.2 | 44.15 | ||||||||||||||
1 | 145 | 652.3 | 95 | ||||||||||||||
KSRCD-1530 | 15 | 2 | 300 | 162.7 | 23.7 | 1308 | 280 | 580 | 125 | 55 | 90 | 50 | 80 | 25 | 16 | 66 | 26 |
1 | 150 | 436 | 63.5 | ||||||||||||||
KSRCD-1550 | 15 | 3 | 500 | 162.7 | 23.7 | 3543 | 320 | 820 | 175 | 55 | 125 | 50 | 110 | 25 | 19 | 95 | 60 |
2 | 340 | 436 | 63.5 | ||||||||||||||
1 | 170 | 841.8 | 122.6 | ||||||||||||||
KSRCD-3030 | 30 | 2 | 300 | 303.2 | 44.15 | 2088 | 304 | 604 | 152 | 75 | 110 | 68 | 100 | 27 | 18 | 89 | 43 |
1 | 150 | 652.3 | 95 | ||||||||||||||
KSRCD-3060 | 30 | 3 | 600 | 303.2 | 44.15 | 6803 | 366 | 966 | 220 | 75 | 160 | 68 | 150 | 27 | 20 | 123 | 106 |
2 | 400 | 652.3 | 95 | ||||||||||||||
1 | 200 | 1380.2 | 201 |
Application
Related Products
HYDRAULIC HAND PUMP | |
Model | KSP-392 or KSP-80 |
Pump Type | Single acting and 2 speed |
Oil Capacity | 901ml or 2200ml |
Max. Working Pressure | 700bar |
Weight | 4KGS or 10.9KGS |
AIR HYDRAULIC PUMP | |
Model | KSP-160 |
Pump Type | Single acting and 2 speed |
Oil Capacity | 1600ml |
Max. Working Pressure | 700bar |
Weight | 9KGS |
Electric Hydraulic Pump | |
Model | KHE-3SM |
Power Supply | 220V, 50/60Hz, 1PH |
Motor Power | 0.55kw |
Oil Capacity | 5L |
Flow | 4.5L/min(1st stage), 0.35L/min(2nd stage) |
Company Profile
FAQ
Q1: What’s the MOQ?
A1: MOQ is 1 piece.
Q2: How to make payment?
A2: Paypal, Western Union, Moneygram or T/T transfer.
Q3: How long does it take to process orders?
A3: It usually takes 10-14 business days to process most orders for no stock. If stock available, it will only take 2-3 business days.
Q4: What is the packing method?
A4: For small piece, we use carton box; for big piece, we use exporting grade plywood case.
Q5: How to ship?
A5: Sea freight, Air freight or International express (DHL, FEDEX, UPS…) all are available.
Q6: What is the warranty?
A6: 12 months against B/L date.
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After-sales Service: | on-Line |
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Warranty: | 1 Year |
Type: | Hydraulic Jack |
Structure: | Hydraulic Jack |
Capacity (Load): | 1-10T |
Power Source: | Hydraulic |
Samples: |
US$ 450/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
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Can single-acting hydraulic cylinders be used in aerospace applications?
Yes, single-acting hydraulic cylinders can be used in aerospace applications. Here’s a detailed explanation:
Aerospace engineering involves designing and manufacturing aircraft and spacecraft, which require precise control and reliable actuation systems. Single-acting hydraulic cylinders are utilized in certain aerospace applications due to their ability to provide controlled linear motion and force.
Here are some examples of how single-acting hydraulic cylinders are used in aerospace:
1. Landing Gear Systems: Landing gear systems in aircraft play a crucial role in takeoff, landing, and taxiing. Single-acting hydraulic cylinders are commonly employed in these systems to extend and retract the landing gear. The cylinders provide the necessary force to support the aircraft’s weight and ensure smooth landing gear operation.
2. Cargo Doors and Access Panels: Aircraft cargo doors and access panels require controlled opening and closing mechanisms. Single-acting hydraulic cylinders are used to actuate these doors and panels, providing the force needed to move them and secure them in place during flight.
3. Flight Control Surfaces: Single-acting hydraulic cylinders are also applied in aircraft flight control systems. These systems control the movement of flight control surfaces such as ailerons, elevators, and rudders, which are essential for maneuvering the aircraft. Hydraulic cylinders provide the necessary force to actuate these surfaces, enabling precise control and maneuverability.
4. Thrust Reverser Systems: In some aircraft, thrust reverser systems are used to assist with deceleration during landing. Single-acting hydraulic cylinders are involved in these systems, helping to deploy and stow the thrust reverser mechanisms, which redirect engine thrust forward to assist in braking.
5. Spacecraft Applications: Single-acting hydraulic cylinders find applications in spacecraft systems as well. They can be used for functions such as deploying scientific instruments, extending solar panels, or controlling antenna movement. The cylinders provide reliable and controlled linear motion in the harsh conditions of space.
It is important to note that aerospace applications have stringent requirements for reliability, weight reduction, and safety. Single-acting hydraulic cylinders used in aerospace must meet rigorous standards and undergo extensive testing and certification processes to ensure their performance and reliability in extreme operating conditions.
In summary, single-acting hydraulic cylinders are employed in various aerospace applications, including landing gear systems, cargo doors and access panels, flight control surfaces, thrust reverser systems, and spacecraft applications. Their ability to provide controlled linear motion and force makes them valuable components in achieving precise actuation and control in aerospace engineering.
How does a single-acting hydraulic cylinder handle variations in cylinder mounting and orientation?
A single-acting hydraulic cylinder is designed to handle variations in cylinder mounting and orientation effectively. Here’s a detailed explanation:
Single-acting hydraulic cylinders are widely used in various applications, including industrial machinery, construction equipment, and automotive systems. They offer flexibility in terms of mounting options and can accommodate different orientations while maintaining their functionality. Here are some key points on how single-acting hydraulic cylinders handle variations in cylinder mounting and orientation:
1. Mounting Configurations: Single-acting hydraulic cylinders can be mounted in various configurations to suit the specific requirements of the application. Common mounting options include flange mount, clevis mount, trunnion mount, and foot mount. These mounting configurations allow the cylinder to be securely attached to the machinery or equipment, providing stability and efficient force transmission. The versatility of mounting options ensures compatibility with different system designs and facilitates easy integration.
2. Angular Misalignment: Single-acting hydraulic cylinders can handle angular misalignment between the cylinder and the load or other components. This capability is particularly useful when the cylinder needs to operate in an orientation that is not perfectly aligned with the load. The cylinder’s mounting arrangement and flexible hydraulic connections allow it to accommodate small angular deviations without compromising its performance. This flexibility ensures that the cylinder can function effectively in various orientations, providing reliable force application.
3. Radial Load Capacity: Single-acting hydraulic cylinders are designed to withstand radial loads, which are forces acting perpendicular to the cylinder’s axis. Radial loads can occur due to variations in cylinder mounting or external forces applied to the cylinder. The cylinder’s construction, such as the use of sturdy piston rods and robust bearing supports, helps distribute and withstand radial loads. This capability ensures that the cylinder remains stable and can handle variations in mounting and external forces without compromising its structural integrity or performance.
4. Self-Alignment: Single-acting hydraulic cylinders possess a degree of self-alignment capability, allowing them to compensate for minor misalignments during operation. This self-alignment ability is primarily due to the presence of flexible seals and the hydraulic fluid’s compressibility. The seals can accommodate slight variations in the alignment between the cylinder and the load, ensuring smooth operation and preventing excessive wear or damage to the cylinder components. The self-alignment feature contributes to the overall reliability and longevity of the cylinder.
5. Mounting Hardware and Accessories: To further enhance the flexibility and adaptability of single-acting hydraulic cylinders, various mounting hardware and accessories are available. These include adjustable mounting brackets, spherical rod ends, and swivel joints. These components allow for fine adjustments and provide additional freedom in cylinder mounting and orientation. By using the appropriate mounting hardware and accessories, variations in cylinder mounting and orientation can be effectively managed.
It is important to consult the manufacturer’s guidelines and recommendations when installing and configuring single-acting hydraulic cylinders, especially in applications with specific mounting and orientation requirements.
In summary, single-acting hydraulic cylinders handle variations in cylinder mounting and orientation through their versatile mounting configurations, ability to accommodate angular misalignment, capacity to withstand radial loads, self-alignment capability, and availability of mounting hardware and accessories. These features ensure that the cylinders can be effectively integrated into different systems and operate reliably in various orientations.
What are the essential components and design features of a single-acting hydraulic cylinder?
A single-acting hydraulic cylinder consists of several essential components and design features that enable its operation. Here’s a detailed explanation:
1. Cylinder Barrel: The cylinder barrel is a cylindrical tube that serves as the main body of the hydraulic cylinder. It houses the other components and provides a sealed chamber for fluid containment.
2. Piston: The piston is a cylindrical component that separates the cylinder barrel into two chambers: the pressure chamber and the return chamber. It is typically made of a durable material such as steel and has sealing elements to prevent fluid leakage between the chambers.
3. Piston Rod: The piston rod is connected to one end of the piston and extends outside the cylinder barrel. It transmits the force generated by the hydraulic fluid to the external load or mechanism. The piston rod is typically made of hardened steel to withstand high forces and minimize deflection.
4. Seals: Seals are crucial components in a single-acting hydraulic cylinder as they prevent fluid leakage and maintain the separation between the pressure chamber and the return chamber. Common types of seals used in hydraulic cylinders include O-rings, rod seals, and wiper seals.
5. Hydraulic Port: A single-acting hydraulic cylinder typically has a single hydraulic port located at the base of the cylinder barrel. The hydraulic port is used to supply hydraulic fluid to the pressure chamber, creating the force necessary for the extending stroke.
6. Mounting Options: Single-acting hydraulic cylinders are designed with various mounting options to facilitate their installation and integration into different systems. Common mounting options include flange mounts, clevis mounts, trunnion mounts, and foot mounts. These mounting options provide flexibility in positioning and securing the cylinder.
7. External Forces for Return Stroke: Unlike double-acting hydraulic cylinders that can generate force in both directions, single-acting cylinders rely on external forces or mechanisms for the return stroke. Once the hydraulic pressure is released or redirected, external forces such as gravity, springs, or other mechanical means push the piston back to its original position.
8. Cylinder Size and Stroke Length: Single-acting hydraulic cylinders are available in various sizes and stroke lengths to accommodate different load requirements and application needs. The cylinder size and stroke length should be selected based on the desired force output, load capacity, and available installation space.
9. Materials and Construction: Single-acting hydraulic cylinders are typically constructed from robust materials such as steel or aluminum alloy to withstand high pressures and loads. The construction should be durable and capable of withstanding the operating conditions, including temperature, pressure, and environmental factors.
10. Optional Features: Single-acting hydraulic cylinders may incorporate optional features depending on the specific application requirements. These features can include integrated cushions to dampen the impact at the end of the stroke, position sensors for feedback, and external protective coatings for corrosion resistance.
In summary, the essential components and design features of a single-acting hydraulic cylinder include the cylinder barrel, piston, piston rod, seals, hydraulic port, mounting options, external forces for the return stroke, cylinder size and stroke length, materials and construction, and optional features. These components and features work together to enable the single-direction force generation and reliable operation of the hydraulic cylinder.
editor by CX 2024-02-28